ACE_Ordered_MultiSet< T > Class Template Reference

Implement a simple ordered multiset of {T} of unbounded size that allows duplicates. This class template requires that < operator semantics be defined for the parameterized type {T}, but does not impose any restriction on how that ordering operator is implemented. The set is implemented as a linked list. More...

#include <Containers_T.h>

Collaboration diagram for ACE_Ordered_MultiSet< T >:

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List of all members.

Public Types

typedef
ACE_Ordered_MultiSet_Iterator
< T > 
ITERATOR

Public Member Functions

 ACE_Ordered_MultiSet (ACE_Allocator *the_allocator=0)
 ACE_Ordered_MultiSet (const ACE_Ordered_MultiSet< T > &)
 Copy constructor.
 ~ACE_Ordered_MultiSet (void)
 Destructor.
void operator= (const ACE_Ordered_MultiSet< T > &)
 Assignment operator.
int is_empty (void) const
 Returns 1 if the container is empty, otherwise returns 0.
size_t size (void) const
 Size of the set.
int insert (const T &new_item)
int insert (const T &new_item, ITERATOR &iter)
 Linear time insert beginning at the point specified by the provided iterator.
int remove (const T &item)
int find (const T &item, ITERATOR &iter) const
 Linear find operation.
void reset (void)
 Reset the ACE_Ordered_MultiSet to be empty.
void dump (void) const
 Dump the state of an object.

Public Attributes

 ACE_ALLOC_HOOK_DECLARE
 Declare the dynamic allocation hooks.

Private Member Functions

int insert_from (const T &item, ACE_DNode< T > *start_position, ACE_DNode< T > **new_position)
int locate (const T &item, ACE_DNode< T > *start_position, ACE_DNode< T > *&new_position) const
void delete_nodes (void)
 Delete all the nodes in the Set.
void copy_nodes (const ACE_Ordered_MultiSet< T > &)
 Copy nodes into this set.

Private Attributes

ACE_DNode< T > * head_
 Head of the bilinked list of Nodes.
ACE_DNode< T > * tail_
 Head of the bilinked list of Nodes.
size_t cur_size_
 Current size of the set.
ACE_Allocatorallocator_
 Allocation strategy of the set.

Friends

class ACE_Ordered_MultiSet_Iterator< T >


Detailed Description

template<class T>
class ACE_Ordered_MultiSet< T >

Implement a simple ordered multiset of {T} of unbounded size that allows duplicates. This class template requires that < operator semantics be defined for the parameterized type {T}, but does not impose any restriction on how that ordering operator is implemented. The set is implemented as a linked list.

Requirements and Performance Characteristics


Member Typedef Documentation

template<class T>
typedef ACE_Ordered_MultiSet_Iterator<T> ACE_Ordered_MultiSet< T >::ITERATOR


Constructor & Destructor Documentation

template<class T>
ACE_Ordered_MultiSet< T >::ACE_Ordered_MultiSet ( ACE_Allocator the_allocator = 0  )  [inline]

Constructor. Use user specified allocation strategy if specified. Initialize the set using the allocation strategy specified. If none, use the default strategy.

template<class T>
ACE_Ordered_MultiSet< T >::ACE_Ordered_MultiSet ( const ACE_Ordered_MultiSet< T > &  us  )  [inline]

Copy constructor.

Initialize the set to be a copy of the provided set.

template<class T>
ACE_Ordered_MultiSet< T >::~ACE_Ordered_MultiSet ( void   )  [inline]

Destructor.

Delete the nodes of the set.


Member Function Documentation

template<class T>
void ACE_Ordered_MultiSet< T >::operator= ( const ACE_Ordered_MultiSet< T > &  us  )  [inline]

Assignment operator.

Delete the nodes in lhs, and copy the nodes from the rhs.

template<class T>
ACE_INLINE int ACE_Ordered_MultiSet< T >::is_empty ( void   )  const [inline]

Returns 1 if the container is empty, otherwise returns 0.

Constant time check to determine if the set is empty.

template<class T>
ACE_INLINE size_t ACE_Ordered_MultiSet< T >::size ( void   )  const [inline]

Size of the set.

Constant time check to determine the size of the set.

template<class T>
int ACE_Ordered_MultiSet< T >::insert ( const T &  new_item  )  [inline]

Insert new_item into the ordered multiset. Returns -1 if failures occur, else 0. Linear time, order preserving insert into the set beginning at the head.

template<class T>
int ACE_Ordered_MultiSet< T >::insert ( const T &  new_item,
ITERATOR iter 
) [inline]

Linear time insert beginning at the point specified by the provided iterator.

Insert new_item into the ordered multiset, starting its search at the node pointed to by the iterator, and if insertion was successful, updates the iterator to point to the newly inserted node. Returns -1 if failures occur, else 0.

template<class T>
int ACE_Ordered_MultiSet< T >::remove ( const T &  item  )  [inline]

Remove first occurrence of item from the set. Returns 0 if it removes the item, -1 if it can't find the item. Linear time search operation which removes the item from the set if found .

template<class T>
int ACE_Ordered_MultiSet< T >::find ( const T &  item,
ITERATOR iter 
) const [inline]

Linear find operation.

Finds first occurrence of item in the multiset, using the iterator's current position as a hint to improve performance. If find succeeds, it positions the iterator at that node and returns 0, or if it cannot locate the node, it leaves the iterator alone and just returns -1.

template<class T>
void ACE_Ordered_MultiSet< T >::reset ( void   )  [inline]

Reset the ACE_Ordered_MultiSet to be empty.

Delete the nodes inside the set.

template<class T>
void ACE_Ordered_MultiSet< T >::dump ( void   )  const [inline]

Dump the state of an object.

template<class T>
int ACE_Ordered_MultiSet< T >::insert_from ( const T &  item,
ACE_DNode< T > *  start_position,
ACE_DNode< T > **  new_position 
) [inline, private]

Insert item, starting its search at the position given, and if successful updates the passed pointer to point to the newly inserted item's node.

template<class T>
int ACE_Ordered_MultiSet< T >::locate ( const T &  item,
ACE_DNode< T > *  start_position,
ACE_DNode< T > *&  new_position 
) const [inline, private]

Looks for first occurance of item in the ordered set, using the passed starting position as a hint: if there is such an instance, it updates the new_position pointer to point to this node and returns 0; if there is no such node, then if there is a node before where the item would have been, it updates the new_position pointer to point to this node and returns -1; if there is no such node, then if there is a node after where the item would have been, it updates the new_position pointer to point to this node (or 0 if there is no such node) and returns 1;

template<class T>
void ACE_Ordered_MultiSet< T >::delete_nodes ( void   )  [inline, private]

Delete all the nodes in the Set.

template<class T>
void ACE_Ordered_MultiSet< T >::copy_nodes ( const ACE_Ordered_MultiSet< T > &  us  )  [inline, private]

Copy nodes into this set.


Friends And Related Function Documentation

template<class T>
friend class ACE_Ordered_MultiSet_Iterator< T > [friend]


Member Data Documentation

Declare the dynamic allocation hooks.

template<class T>
ACE_DNode<T>* ACE_Ordered_MultiSet< T >::head_ [private]

Head of the bilinked list of Nodes.

template<class T>
ACE_DNode<T>* ACE_Ordered_MultiSet< T >::tail_ [private]

Head of the bilinked list of Nodes.

template<class T>
size_t ACE_Ordered_MultiSet< T >::cur_size_ [private]

Current size of the set.

template<class T>
ACE_Allocator* ACE_Ordered_MultiSet< T >::allocator_ [private]

Allocation strategy of the set.


The documentation for this class was generated from the following files:

Generated on Wed Apr 23 02:40:29 2008 for ACE by  doxygen 1.5.5